Background: Preoccupation around eating and disordered eating of professional athletes has extensively been discussed in the literature. However, the extent of disordered eating behaviours at the non-professional or amateur club level in South African sport has not received the same amount of attention. Objectives: This study attempted to determine the extent of disordered eating behaviours among amateur athletes to identify the athletes at risk of developing an eating disorder. Group differences and predictive factors were explored to determine factors associated with disordered eating behaviours among amateur sporting athletes. Methods: A purposive sample of athletes (n = 278) with a mean age of 27 ± 11.30 years, from various sports clubs in Central Gauteng (in and around Johannesburg), were asked to complete the Eating Attitudes Test-26 and Sport Competition Anxiety Test. Data analysis included descriptive statistics, independent samples t-tests, analysis of variance (ANOVA) and logistic regression. Results: The results indicated that 14.7% of athletes were at risk of developing an eating disorder, while some engaged in excessive weight control behaviour which put them at risk. Gender and weight control strategies were important indicators associated with the risk of developing an eating disorder. The athletes’ gender, level of participation and body mass index (BMI) were important predictors of the risk to develop an eating disorder. Conclusion: Indicators of eating disorder risk among club-level amateur athletes are gender, binge eating, vomiting and using laxatives to control weight. These behaviours predominately found in female athletes seem to put them at a greater risk of developing an eating disorder.

Background: Preoccupation around eating and disordered eating of professional athletes has extensively been discussed in the literature. However, the extent of disordered eating behaviours at the non-professional or amateur club level in South African sport has not received the same amount of attention. Objectives: This study attempted to determine the extent of disordered eating behaviours among amateur athletes to identify the athletes at risk of developing an eating disorder. Group differences and predictive factors were explored to determine factors associated with disordered eating behaviours among amateur sporting athletes. Methods: A purposive sample of athletes (n = 278) with a mean age of 27 ± 11.30 years, from various sports clubs in Central Gauteng (in and around Johannesburg), were asked to complete the Eating Attitudes Test-26 and Sport Competition Anxiety Test. Data analysis included descriptive statistics, independent samples t-tests, analysis of variance (ANOVA) and logistic regression. Results: The results indicated that 14.7% of athletes were at risk of developing an eating disorder, while some engaged in excessive weight control behaviour which put them at risk. Gender and weight control strategies were important indicators associated with the risk of developing an eating disorder. The athletes’ gender, level of participation and body mass index (BMI) were important predictors of the risk to develop an eating disorder. Conclusion: Indicators of eating disorder risk among club-level amateur athletes are gender, binge eating, vomiting and using laxatives to control weight. These behaviours predominately found in female athletes seem to put them at a greater risk of developing an eating disorder.

Summary In a prospective study spanning over 6 months involving one hundred and nineteen male and female subjects comprising 98 Nigerian athletes and 55 age and sex matched controls all had electrocardiography and echocardiographic assessment of left ventricular dimensions and systolic function. Athletes were found to have significant prevalence of bradycardia when compared to the non-athletes. (P=0.03). In addition a greater percentage of the athletes had T wave invertion in the anterior leads (V1-V3) and electrocardiographic features consistent with left ventricular hypertrophy; and first-degree heart block. Athletes were also found to have significantly larger left ventricular end diastolic dimension (p0.01); increased left ventricular posterior wall thickness (p0.01); greater left ventricular mass (p0.01) and left ventricular mass index (p0.01) than the control group. These parameters were found to be significantly higher in each gender category as well. Power trained athletes were found to have greater relative left ventricular wall thickening when compared to the endurance trained athletes. Left ventricular systolic functions of both categories of athletes were found to be within normal limits and better than the control group. None of the athlete had echocardiographic features suggestive of hypertrophic cardiomyopathy.

Summary In a prospective study spanning over 6 months involving one hundred and nineteen male and female subjects comprising 98 Nigerian athletes and 55 age and sex matched controls all had electrocardiography and echocardiographic assessment of left ventricular dimensions and systolic function. Athletes were found to have significant prevalence of bradycardia when compared to the non-athletes. (P=0.03). In addition a greater percentage of the athletes had T wave invertion in the anterior leads (V1-V3) and electrocardiographic features consistent with left ventricular hypertrophy; and first-degree heart block. Athletes were also found to have significantly larger left ventricular end diastolic dimension (p0.01); increased left ventricular posterior wall thickness (p0.01); greater left ventricular mass (p0.01) and left ventricular mass index (p0.01) than the control group. These parameters were found to be significantly higher in each gender category as well. Power trained athletes were found to have greater relative left ventricular wall thickening when compared to the endurance trained athletes. Left ventricular systolic functions of both categories of athletes were found to be within normal limits and better than the control group. None of the athlete had echocardiographic features suggestive of hypertrophic cardiomyopathy.

Women participating in endurance sports are at risk of presenting with low energy availability (EA), menstrual dysfunction (MD), and low bone mineral density (BMD), collectively termed the female athlete triad (FAT or TRIAD). Therefore, the purpose of the study was to determine the profile of the TRIAD among elite Kenyan female athletes and among non-athletes. There were 39 participants (athletes: 25, non-athletes:14) who provided the data for this study. Exercise energy expenditure (EEE) was deducted from energy intake (EI), and the remnant energy normalized to fat free mass (FFM) to determine energy availability (EA). Weight of all food and liquid consumed during three consecutive days determined EI. EEE was determined after isolating and deducting energy expended in exercise or physical activity above lifestyle from the total energy expenditure output as measured by Actigraph GT3X+. Dual energy x-ray absorptiometry (DXA) determined both FFM and BMD. Menstrual function was determined from a daily temperature-menstrual log kept by each participant for nine continuous months. Low EA (<45 kcal/kgFFM.d-1) was evident in 61.53% of the participants (athletes: 28.07 ±11.45 kcal/kgFFM.d-1, non-athletes: 56.97 ±21.38 kcal/kgFFM.d-1). The overall 36% MD seen among all participants was distributed as 40% among the athletes, and 29% among non-athletes. None of the athletes was amenorrheic. Low BMD was seen in 79% of the participants (athletes: 76%, non-athletes:86%). Overall, 10% of the participants (athletes: 4, non-athletes: 0) showed simultaneous presence of all three components of the TRIAD. The Independent sample t-test showed significant difference (t=5.860; p< 0.001) in prevalence of the TRIAD between athletes and non-athletes. The hypothesized higher prevalence of the TRIAD among athletes compared to non-athletes was partially accepted. To alleviate conditions arising from low EA, both athletes and their coaches need regular education on how to ensure they adequately meet specific dietary and nutritional requirements for their competition events

Women participating in endurance sports are at risk of presenting with low energy availability (EA), menstrual dysfunction (MD), and low bone mineral density (BMD), collectively termed the female athlete triad (FAT or TRIAD). Therefore, the purpose of the study was to determine the profile of the TRIAD among elite Kenyan female athletes and among non-athletes. There were 39 participants (athletes: 25, non-athletes:14) who provided the data for this study. Exercise energy expenditure (EEE) was deducted from energy intake (EI), and the remnant energy normalized to fat free mass (FFM) to determine energy availability (EA). Weight of all food and liquid consumed during three consecutive days determined EI. EEE was determined after isolating and deducting energy expended in exercise or physical activity above lifestyle from the total energy expenditure output as measured by Actigraph GT3X+. Dual energy x-ray absorptiometry (DXA) determined both FFM and BMD. Menstrual function was determined from a daily temperature-menstrual log kept by each participant for nine continuous months. Low EA (<45 kcal/kgFFM.d-1) was evident in 61.53% of the participants (athletes: 28.07 ±11.45 kcal/kgFFM.d-1, non-athletes: 56.97 ±21.38 kcal/kgFFM.d-1). The overall 36% MD seen among all participants was distributed as 40% among the athletes, and 29% among non-athletes. None of the athletes was amenorrheic. Low BMD was seen in 79% of the participants (athletes: 76%, non-athletes:86%). Overall, 10% of the participants (athletes: 4, non-athletes: 0) showed simultaneous presence of all three components of the TRIAD. The Independent sample t-test showed significant difference (t=5.860; p< 0.001) in prevalence of the TRIAD between athletes and non-athletes. The hypothesized higher prevalence of the TRIAD among athletes compared to non-athletes was partially accepted. To alleviate conditions arising from low EA, both athletes and their coaches need regular education on how to ensure they adequately meet specific dietary and nutritional requirements for their competition events

Low energy availability (EA) has been recognized as an instigator of menstrual dysfunction and subsequent hypoestrogenism that leads to deterioration in bone health. Elite Kenyan male athletes have been reported to often function under low energy balance. Therefore, the purpose of this study was to determine EA and menstrual function (MF) among elite Kenyan female athletes; and to explore the association between EA and MF in the athletes. The data were collected from 25 elite Kenyan runners and 14 non-athletes. Energy intake (EI) minus exercise energy expenditure (EEE) normalized to fat free mass (FFM) determined EA. EI was determined through weight of all food and liquid consumed over three consecutive days. EEE was determined after isolating and deducting energy expended in exercise or physical activity above lifestyle level from the total energy expenditure output as measured by Actigraph GT3X+. FFM was assessed using DXA. A daily temperature-menstrual log kept for nine continuous months was used to establish menstrual function. Overall, EA below 45 kcal/kgFFM.d-1 was seen in 61.53% of the participants (athletes: 28.07 ±11.45 kcal/kgFFM.d-1, non-athletes:56.97 ±21.38 kcal/kgFFM.d-1). Results on menstrual dysfunction were as follows: oligomenorrhea (athletes: 40%; non-athletes: 14.3%) and amenorrhea (non-athletes: 14.3%). None of the athletes were amenorrheic. Results did not show any significant association between EA and MF, but the low to sub-optimal EA among elite Kenyan female athletes raises concern for their future menstrual and bone health. . Educating the athletes and coaches will enhance achievement of the specific dietary and nutritional needs appropriate to their competition events.

Low energy availability (EA) has been recognized as an instigator of menstrual dysfunction and subsequent hypoestrogenism that leads to deterioration in bone health. Elite Kenyan male athletes have been reported to often function under low energy balance. Therefore, the purpose of this study was to determine EA and menstrual function (MF) among elite Kenyan female athletes; and to explore the association between EA and MF in the athletes. The data were collected from 25 elite Kenyan runners and 14 non-athletes. Energy intake (EI) minus exercise energy expenditure (EEE) normalized to fat free mass (FFM) determined EA. EI was determined through weight of all food and liquid consumed over three consecutive days. EEE was determined after isolating and deducting energy expended in exercise or physical activity above lifestyle level from the total energy expenditure output as measured by Actigraph GT3X+. FFM was assessed using DXA. A daily temperature-menstrual log kept for nine continuous months was used to establish menstrual function. Overall, EA below 45 kcal/kgFFM.d-1 was seen in 61.53% of the participants (athletes: 28.07 ±11.45 kcal/kgFFM.d-1, non-athletes:56.97 ±21.38 kcal/kgFFM.d-1). Results on menstrual dysfunction were as follows: oligomenorrhea (athletes: 40%; non-athletes: 14.3%) and amenorrhea (non-athletes: 14.3%). None of the athletes were amenorrheic. Results did not show any significant association between EA and MF, but the low to sub-optimal EA among elite Kenyan female athletes raises concern for their future menstrual and bone health. . Educating the athletes and coaches will enhance achievement of the specific dietary and nutritional needs appropriate to their competition events.

Background: Athletes need to recover fully to maximise performance in competitive sport. Athletes who replenish more quickly and more efficiently are able to train harder and more intensely. Elite athletes subjectively report positive results using lower body negative pressure (LBNP) treatment as an alternate method for rapid recovery, restoring and improving their impaired physical state. Objective data on the efficacy are lacking.Objectives: To investigate the effect of intermittent vacuum therapy on accelerating acute recovery following an athlete’s normal daily training schedule of strenuous exercise. Objective measurements of biological markers of muscular fatigue were used to assess recovery.Methods: Twenty-two male cricket players in a randomised cross-over study were divided into a treatment and control group respectively. Following a one-hour high-intensity gym session, the treatment group received three 30-minute LBNP exposure sessions over three consecutive days (0, 24 and 48 hours). Blood lactate and creatine kinase biomarkers were collected to measure the recovery process. After 14 days groups were crossed over and the trial repeated.Results: Heart rate and blood pressure decreased noticeably during treatment, reverting to baseline levels after treatment. Lactate concentrations decreased in both groups after exercise termination; significantly more in the treatment (0.57±0.23 mmol/l) than control group (0.78±0.22 mmol/l), p<0.001). Creatine kinase (CK) was similar in both groups. Athletes’ subjective assessments of recovery rated moderately high.Conclusion: LBNP therapy applied as treatment during routine schedule may have a systemic effect in lowering serum lactate levels, but not CK levels. Enhanced recovery of athletes is still unconfirmed.

Background: Athletes need to recover fully to maximise performance in competitive sport. Athletes who replenish more quickly and more efficiently are able to train harder and more intensely. Elite athletes subjectively report positive results using lower body negative pressure (LBNP) treatment as an alternate method for rapid recovery, restoring and improving their impaired physical state. Objective data on the efficacy are lacking.Objectives: To investigate the effect of intermittent vacuum therapy on accelerating acute recovery following an athlete’s normal daily training schedule of strenuous exercise. Objective measurements of biological markers of muscular fatigue were used to assess recovery.Methods: Twenty-two male cricket players in a randomised cross-over study were divided into a treatment and control group respectively. Following a one-hour high-intensity gym session, the treatment group received three 30-minute LBNP exposure sessions over three consecutive days (0, 24 and 48 hours). Blood lactate and creatine kinase biomarkers were collected to measure the recovery process. After 14 days groups were crossed over and the trial repeated.Results: Heart rate and blood pressure decreased noticeably during treatment, reverting to baseline levels after treatment. Lactate concentrations decreased in both groups after exercise termination; significantly more in the treatment (0.57±0.23 mmol/l) than control group (0.78±0.22 mmol/l), p<0.001). Creatine kinase (CK) was similar in both groups. Athletes’ subjective assessments of recovery rated moderately high.Conclusion: LBNP therapy applied as treatment during routine schedule may have a systemic effect in lowering serum lactate levels, but not CK levels. Enhanced recovery of athletes is still unconfirmed.